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Mesenchymal Stem Cells Ameliorate Cuprizone-Induced Demyelination by Targeting Oxidative Stress and Mitochondrial Dysfunction Publisher Pubmed



Shiri E1 ; Pasbakhsh P1 ; Borhanihaghighi M1 ; Alizadeh Z2 ; Nekoonam S1 ; Mojaverrostami S1 ; Pirhajati Mahabadi V3 ; Mehdi A4 ; Zibara K5 ; Kashani IR1
Authors
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Authors Affiliations
  1. 1. Department of Anatomy, Tehran University of Medical Sciences, Tehran, Iran
  2. 2. Endometrium and Endometriosis Research Center, Hamadan University of Medical Sciences, Hamadan, Iran
  3. 3. Neuroscience Research Center, Vice-Chancellor for Research and Technology, Iran University of Medical Sciences, Tehran, Iran
  4. 4. PRASE and Faculty of Agriculture, Lebanese University, Beirut, Lebanon
  5. 5. ER045, PRASE and Biology Department, Faculty of Sciences-I, Lebanese University, Beirut, Lebanon

Source: Cellular and Molecular Neurobiology Published:2021


Abstract

Multiple sclerosis (MS) is an inflammatory demyelinating disease of the central nervous system. The main causes of MS disease progression, demyelination, and tissue damage are oxidative stress and mitochondrial dysfunction. Hence, the latter are considered as important therapeutic targets. Recent studies have demonstrated that mesenchymal stem cells (MSCs) possess antioxidative properties and are able to target mitochondrial dysfunction. Therefore, we investigated the effect of transplanting Wharton’s jelly-derived MSCs in a demyelination mouse model of MS in which mice were fed cuprizone (CPZ) for 12 weeks. CPZ is a copper chelator that impairs the activity of cytochrome oxidase, decreases oxidative phosphorylation, and produces degenerative changes in oligodendrocytes, leading to toxic demyelination similar to those found in MS patients. Results showed that MSCs caused a significant increase in the percentage of myelinated areas and in the number of myelinated fibers in the corpus callosum of the CPZ + MSC group, compared to the CPZ group, as assessed by Luxol fast blue staining and transmission electron microscopy. In addition, transplantation of MSCs significantly increased the number of oligodendrocytes while decreasing astrogliosis and microgliosis in the corpus callosum of the CPZ + MSC group, evaluated by immunofluorescence. Moreover, the mechanism by which MSCs exert these physiological effects was found to be through abolishing the effect of CPZ on oxidative stress markers and mitochondrial dysfunction. Indeed, malondialdehyde significantly decreased while glutathione and superoxide dismutase significantly increased in CPZ + MSC mice group, in comparison witth the CPZ group alone. Furthermore, cell therapy with MSC transplantation increased the expression levels of mitochondrial biogenesis transcripts PGC1α, NRF1, MFN2, and TFAM. In summary, these results demonstrate that MSCs may attenuate MS by promoting an antioxidant response, reducing oxidative stress, and improving mitochondrial homeostasis. © 2020, Springer Science+Business Media, LLC, part of Springer Nature.
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